CN211981055U

CN211981055U - Bluetooth socket

Info

Publication number: CN211981055U
Application number: CN202020397932.5U
Authority: CN
Inventors: 缪健
Original assignee: Suzhou Shatas Information Technology Co ltd
Current assignee: Suzhou Shatas Information Technology Co ltd
Priority date: 2020-03-26
Filing date: 2020-03-26
Publication date: 2020-11-20
Anticipated expiration: 2030-03-26

Abstract

A Bluetooth jack: the socket comprises a socket panel, a control communication layer, a socket part and a base, wherein the control communication layer is inserted and buckled on the socket part and is separated from the socket part, and when the control communication layer is removed, the socket part can independently work; the socket control system comprises an external system, a control communication layer and a socket part, wherein the control communication layer is in Bluetooth matching with the external system in a radio frequency mode and controls the socket part to work. When the control communication layer is disconnected from the socket part, the socket part can be used as a common socket to work independently. The utility model discloses can carry out remote management to the socket through bluetooth and high in the clouds server: controlling the output electrical parameter limited electrical energy; meanwhile, the protection device has the functions of electric leakage and overload protection.

Description

Bluetooth socket

Technical Field

The utility model relates to a socket, concretely relates to can be restricted through bluetooth and high in the clouds server remote control, output electric parameter, have electric leakage, overload protection function, and control communication layer and main part detachable bluetooth socket.

Background

The socket is also called as a power socket and a switch socket. The socket is a power taking port into which one or more circuit wiring can be inserted, and is convenient to be communicated with other circuits. The connection and disconnection of the part of the circuit are achieved through the connection and disconnection between the line and the copper piece.

In the existing socket, in the aspect of controlling a switch, a plug on the socket needs to be pulled out, or the equipment switch connected with the socket is controlled, so that the equipment switch cannot be controlled, wireless, timing, remote and electricity parameter control cannot be realized, electric leakage and overload protection cannot be provided, and the experience is poor.

The existing part of the Bluetooth socket is not flexible in structure or limited in function. Some sockets only realize the practical requirements of controllable switching value of the socket, and neglect the safety protection of overload and leakage. Various possible scenes are ignored in the aspect of experience, the output duration cannot be managed, and the output power, the output current and the like cannot be managed. In the use process, only the USB socket is considered, and the problem that the carrying of the charging wire is troublesome is ignored. Also, the scenario of emergency charging demand is ignored.

How to design a civil electric socket which has simple structure, stable performance, excellent safety performance, remote control of a switch, controllable output electric energy parameters, effective emergency and more convenient charging is a problem which is continuously researched by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the above-mentioned defect of prior art, provide a bluetooth socket, solve the socket can not remote control, or realized on-off control but can not the accurate control electric parameter, do not possess emergent function, use the scene dumb, bluetooth socket and ordinary socket can not the problem of free variation etc..

The utility model provides a technical scheme that above-mentioned technical problem adopted is: provided is a Bluetooth socket: a Bluetooth socket comprises a socket panel, a control communication layer, a socket part and a base, wherein the control communication layer is inserted and buckled on the socket part and is separated from the socket part, and when the control communication layer is removed, the socket part can independently work;

the socket part comprises a basic function module and components, and specifically comprises an alternating current input end, a power supply driving module of civil alternating current, a relay and an output circuit connected with the relay, wherein the output circuit part comprises an alternating current output end, an AC-DC voltage reduction circuit, a USB (universal serial bus) socket and a 5V output data line;

the socket panel reserves an alternating current output end external interface, a local temporary control key external interface, a 5V output data line external interface and a USB interface for the socket part;

the control communication layer is an embedded digital circuit board and comprises a Bluetooth communication module and a local control module, wherein the local control module comprises a local control switch, a local timer, an output circuit parameter control unit, a leakage overload protection module and a local temporary control key.

Further, the control communication layer and the socket part are connected in a pin-in-pin mode.

Further, the Bluetooth socket also comprises a control system for the Bluetooth socket, wherein the control system comprises a socket panel, a control communication layer, a socket part, a base and an external system; the external system comprises an external Bluetooth control front end and a cloud server;

the relay is connected with the power supply driving module, is connected with and controlled by the local control module, is connected with the AC-DC voltage reduction circuit and outputs electric energy to the local control module when the local control module allows the electric energy, and is connected with the AC output end and outputs electric energy to the AC output end according to the electric parameters required by the control module;

the AC-DC voltage reduction circuit is connected with the relay, is connected with the USB socket and the 5V output data line, obtains power supply from the relay when the local control module allows the power supply, and then outputs 5V direct current outwards;

the Bluetooth communication module and the local control module are integrated on a single embedded digital circuit board to form a control communication layer, and the control communication layer is connected with the relay through an interface;

the Bluetooth communication module comprises a Bluetooth module and a Bluetooth antenna, and is used for carrying out Bluetooth matching with an external system in a radio frequency mode, receiving data and writing the data into each memory of the local control module;

in the local control module, a local control switch is responsible for allowing or forbidding the relay to work; the local timer is responsible for measuring the duration of the relay in the opening and closing process; the output circuit parameter control unit is used for informing the relay to output according to the set electric parameter when the relay is allowed to be switched on; the leakage and overload protection module is responsible for detecting electric parameter data under the conditions of leakage and output, and when the leakage current exceeds a threshold value or the output exceeds a set maximum output power, the leakage and overload protection module informs the relay to stop working; the local temporary control key is a convenient service provided for temporary emergency power consumers, and can provide limited-time and parameter-limited electric energy output.

Furthermore, the external Bluetooth control front end is a mobile phone, a tablet, a notebook or an intelligent wearable device.

The utility model discloses can carry out remote management to the socket through bluetooth and high in the clouds server: controlling the output electrical parameter limited electrical energy; meanwhile, the protection device has the functions of electric leakage and overload protection; and the control communication layer and the main body can be separated, so that the Bluetooth socket can be used as a Bluetooth socket and a common socket.

Drawings

Fig. 1 is a schematic diagram of the structure including the control communication layer according to the present invention.

Fig. 2 is a schematic structural diagram of the utility model after the control communication layer is peeled off.

Fig. 3 is a front view of the appearance structure of the present invention.

Fig. 4 is a schematic diagram of the overall control scheme of the present invention.

Detailed Description

The practice of the present invention will be described in detail with reference to figures 1, 2, 3 and 4.

As shown in fig. 1 and 2, a bluetooth socket comprises a socket panel 40, a control communication layer 20, a socket part 30 and a base 50, wherein the control communication layer 20 is inserted into and separated from the socket part 30, the socket part 30 can be operated independently when the control communication layer 20 is removed, the socket part 30 is installed into the base 50 as shown in fig. 2, and the socket panel 40 is covered and buckled on the top, thereby forming a common socket. When the control communication layer 20 is inserted into the socket part 30, the bluetooth socket is constructed as shown in fig. 1.

As shown in fig. 3, the receptacle panel 40 includes an ac power output terminal external interface 330, a local temporary control key external interface 2250, a 5V output data line external interface 360 and a USB socket external interface 350, which are reserved for the receptacle section 30. The utility model discloses with bluetooth communication mode control socket output specified parameter electric energy.

The control communication layer 20 is an embedded digital circuit board, and the socket part 30 is a basic function module and a component part of a conventional socket. An embedded digital circuit board carrying the functions of the control communication layer 20 may be embedded in the socket part 30 in a pin-in-pin manner. Therefore, the traditional socket expands the communication function with the network. The function of the socket part 30 becomes an internet of things socket which can edit logic and communicate with a network because it is controlled by the control communication layer 20.

As shown in fig. 4, the socket part 30 includes an AC input 00, a power driving module 31 for commercial AC, a relay 32, and an output circuit connected to the relay 32, and further includes an AC output terminal 33, an AC-DC voltage step-down circuit 34, a USB socket 35, and a 5V output data line 36.

The control communication layer 20 includes a bluetooth communication module 21 and a local control module 22.

The front end of the relay 32 is connected with the power supply driving module 31, is connected with and controlled by the local control module 22, is connected with the AC-DC voltage reduction circuit 34, outputs electric energy to the local control module 22 when the local control module allows the local control module, and is connected with the AC output end 33 and outputs electric energy to the local control module according to the electric parameters required by the control module 22; the AC-DC voltage reduction circuit 34 is connected to the relay 32 and to the USB socket 35 and the 5V output data line 36, and when allowed by the local control module 22, obtains power from the relay 32 and outputs 5V DC power to the outside.

The bluetooth communication module 21 and the local control module 22 are integrated on a single embedded digital circuit board to form the control communication layer 20. The control communication layer 20 is connected to the relay 32 through an interface. The control communication layer 20 and the socket part 30 are two relatively independent parts, and can be quickly plugged in and pulled out in a pin-in-pin mode, so that the socket can be quickly switched between a common socket and an intelligent Bluetooth socket.

The bluetooth communication module 21, which includes a bluetooth module and a bluetooth antenna, performs bluetooth matching with the external system 10 in a radio frequency manner, receives data, and writes the data into each memory of the local control module 22.

As shown in fig. 4, the local control module 22 includes a local control switch 221, a local timer 222, an output circuit parameter control unit 223, a leakage and overload protection module 224, and a local temporary control button 225.

In the local control module 22, the local control switch 221 is responsible for enabling or disabling the relay 32; the local timer 222 is responsible for measuring the duration of the opening and closing process of the relay 32; the output circuit parameter control unit 223 is responsible for notifying the relay 32 to output according to the set electric parameter when the relay 32 is allowed to turn on the circuit; the leakage and overload protection module 224 is responsible for detecting electrical parameter data under the conditions of leakage and output, and when the leakage current exceeds a threshold value or the output exceeds a set maximum output power, the relay 32 is informed to stop working; the local temporary control button 225 provides convenient service for temporary emergency consumers, and can provide limited-time and parameter-limited power output.

As shown in fig. 4, during the normal operation of the bluetooth socket, the external bluetooth control front end 11 mates with the bluetooth communication module 21; then, the external Bluetooth controls the front end 11 to apply for service from the cloud server 12; after obtaining the authentication permission of the cloud server 12, the cloud server 12 sends a command to the bluetooth socket through the external bluetooth control front end 11, wherein the command comprises fields such as permission, duration, power and the like; the command data is written into the local timer 222, the output circuit electrical parameter control unit 223 and the leakage and overload protection module 224, which together with the local control switch 221 control the operation state of the relay 32. Therefore, the user can control the front end 11 to converge with the cloud server 12 through the external Bluetooth, and the safe and standard use of the near-end electricity taking port is realized.

The external Bluetooth control front end 11 comprises various mobile Bluetooth devices such as a mobile phone, a tablet, a notebook and an intelligent wearable device.

In the working process:

the control communication layer 20 of the bluetooth socket makes itself in a discoverable state by broadcasting packets that are issued outside. The external bluetooth control front end 11 can search and find the IP address of the bluetooth socket through the interface provided by the cloud server 12, and further pair the bluetooth communication module 21 of the device; then, the external bluetooth control front end 11 issues an application of the electricity utilization service to the cloud server 12 through an interface provided by the specific cloud server 12; the cloud server 12 issues corresponding license content according to the state of the application front end, the authority of the applicant, the application time and other elements, the license is a piece of data, and the content includes whether the usage is permitted or not, the permitted usage duration, the permitted maximum output power and the like. The permission content is forwarded to the bluetooth communication module 21 of the socket through the external bluetooth control front end 11, and then written into each storage unit of the local control module 22 through the bluetooth communication module 21.

Specifically, when the control communication layer 20 is inserted above the socket part 30, the normal socket becomes a bluetooth socket. The bluetooth socket can receive the electric parameter information which is sent by the external bluetooth control front end 11 and is checked and issued by the cloud server 12 through the bluetooth communication module 21. This data can be written into the control modules of the local control module 22. The operation of the relay 32 is now controlled by the parameters in the local control module 22. Specifically, the electrical parameters which are sent from the external bluetooth control front end 11 and audited and issued by the cloud server 12 include the parameter Y/N of the local control switch 221 whether to allow the relay 32 to operate; the duration hh mm ss of the local timer 222 that allows the relay 32 to operate; the maximum value of the electric parameter of the output circuit electric parameter control unit 223 when the relay 32 is allowed to operate, such as 250V, 2.5A, 500W, etc.; also included is the range of leakage that the leakage and overload protection module 224 is allowed to operate, such as the leakage protection requirement of <15mA allowed turn on and >30mA not allowed turn on. The local control module 22 does not allow the relay 32 to output power to the outside unless the local temporary control button 225 is pressed, when all conditions must be met.

As in the above example, when the parameter value of the local control switch 221 is Y, the duration of the local timer 222 is >0, the voltage is <250V, the current is <2.5A, the leakage current monitored by the overload protection module 224 is <15mA, and the output power monitored by the leakage-overload protection module 224 is <500W, the relay 32 is allowed to output the electric energy.

In the above example, when the parameter value of the local control switch 221 is N, or the duration of the local timer 222 is equal to 0, or the voltage is greater than or equal to 250V, or the current is greater than or equal to 2.5A, or the leakage current monitored by the leakage overload protection module 224 is greater than 30mA, or the output power monitored by the leakage overload protection module 224 is greater than or equal to 500W, any condition is met, which triggers the relay 32 to be turned off, that is, the output power is not allowed.

The local temporary control button 225 is a convenient service for temporary emergency consumers. When pressed, the electric energy output with limited time and parameters can be provided. When the key is pressed, the reference output circuit is used for referencing the latest numerical value of the control unit, for example, the electric energy output with the current less than 2.5A, the voltage less than 250V and the power less than 500W is provided; meanwhile, the local timer 222 counts down for 2 minutes, and when the value of the local timer 222 is 0, the trigger relay 32 is turned off. At the same time, the local timer 222 counts down for 30 minutes, during which time the local temporary control button 225 is deactivated.

When the control communication layer 20 is disconnected from the socket part 30, the socket part 30 can still work independently and normally because the relay 32 is not limited by the control communication layer 20, and the AC input 00 is distributed to the AC-DC step-down circuit 34 and the AC output 33 through the relay 32 after passing through the power driving module 31; the AC-DC voltage reduction circuit reduces the 220V AC voltage to 5V DC voltage, and outputs the voltage to the 5V output data line 36 and the USB socket 35, respectively, so that the overall operation condition is not limited by the control layer 20.

Claims

1. A bluetooth socket, its characterized in that: the socket comprises a socket panel (40), a control communication layer (20), a socket part (30) and a base (50), wherein the control communication layer (20) is plugged on the socket part (30) and is separable from the socket part (30), and the socket part (30) can work independently when the control communication layer (20) is removed;

the socket part (30) comprises a basic function module and components, and specifically comprises an alternating current input (00), a power supply driving module (31) of civil alternating current, a relay (32) and an output circuit connected with the relay (32), wherein the output circuit part comprises an alternating current output end (33), an AC-DC voltage reduction circuit (34), a USB socket (35) and a 5V output data line (36);

the socket panel (40) reserves an alternating current output end external interface (330), a local temporary control key external interface (2250), a 5V output data line external interface (360) and a USB socket external interface (350) for the socket part (30);

the control communication layer (20) is an embedded digital circuit board and comprises a Bluetooth communication module (21) and a local control module (22), wherein the local control module (22) comprises a local control switch (221), a local timer (222), an output circuit parameter control unit (223), an electric leakage overload protection module (224) and a local temporary control key (225).

2. The bluetooth socket according to claim 1, wherein: the control communication layer (20) is connected with the socket part (30) in a pin-in-pin mode.

3. The bluetooth socket according to claim 1, wherein: also included is a control system for the bluetooth socket, the control system comprising a socket panel (40), a control communication layer (20), a socket portion (30), a base (50), and an external system (10); the external system (10) comprises an external Bluetooth control front end (11) and a cloud server (12);

the front end of the relay (32) is connected with the power supply driving module (31), is connected with and controlled by the local control module (22), is connected with the AC-DC voltage reduction circuit (34), outputs electric energy to the local control module (22) when the local control module allows the power supply driving module, and is connected with the alternating current output end (33) and outputs electric energy to the local control module according to the electric parameters required by the control module (22);

the AC-DC voltage reduction circuit (34) is connected with the relay (32), is connected with the USB socket (35) and the 5V output data line (36), obtains power supply from the relay (32) when the local control module (22) allows, and then outputs 5V direct current outwards;

the Bluetooth communication module (21) and the local control module (22) are integrated on a single embedded digital circuit board to form a control communication layer (20), and the control communication layer (20) is connected with the relay (32) through an interface;

the Bluetooth communication module (21) comprises a Bluetooth module and a Bluetooth antenna, performs Bluetooth matching with an external system (10) in a radio frequency mode, receives data and writes the data into each memory of the local control module (22);

in the local control module (22), a local control switch (221) is responsible for enabling or disabling the relay (32); the local timer (222) is responsible for measuring the duration of the relay (32) in the opening and closing process; the output circuit parameter control unit (223) is responsible for informing the relay (32) to output according to the set electric parameter when the relay (32) is allowed to be switched on; the leakage and overload protection module (224) is responsible for detecting electric parameter data under the conditions of leakage and output, and when the leakage current exceeds a threshold value or the output exceeds a set maximum output power, the relay (32) is informed to stop working; the local temporary control key (225) is a convenient service for temporary emergency power consumers and can provide limited-time and parameter electric energy output.

4. A bluetooth socket according to claim 3, wherein: the external Bluetooth control front end (11) is a mobile phone, a tablet, a notebook or an intelligent wearable device.